一种数据驱动的混合整数程序设计方法，用于在不确定条件下实现受机会制约的联合最优电力流

IF 3.1 3区计算机科学 Q2 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE

International Journal of Machine Learning and Cybernetics Pub Date : 2024-08-31 DOI:10.1007/s13042-024-02325-x

James Ciyu Qin, Rujun Jiang, Huadong Mo, Daoyi Dong

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引用次数: 0

摘要

本文针对不确定负荷和可再生能源发电条件下的联合机会约束最优功率流问题，介绍了一种新颖的混合整数编程（MIP）重构方法。与传统模型不同的是，我们的方法纳入了对整个系统风险的综合评估，而没有将联合机会约束分解为单个约束，从而避免了过于保守的解决方案，确保了稳健的系统安全。我们方法的一大创新是利用历史数据形成样本平均近似值，直接为 MIP 模型提供信息，从而绕过了对分布假设的需求，增强了解决方案的稳健性。此外，我们还实施了一种模型改进策略，以减轻计算负担，从而使我们的方法在大规模电力系统中更具可扩展性。我们的方法经过了基准系统（即 IEEE 14、57 和 118 总线系统）的验证，在成本效益和鲁棒性方面表现出色，与现有方法相比，计算需求更低。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

A data-driven mixed integer programming approach for joint chance-constrained optimal power flow under uncertainty

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A data-driven mixed integer programming approach for joint chance-constrained optimal power flow under uncertainty

This paper introduces a novel mixed integer programming (MIP) reformulation for the joint chance-constrained optimal power flow problem under uncertain load and renewable energy generation. Unlike traditional models, our approach incorporates a comprehensive evaluation of system-wide risk without decomposing joint chance constraints into individual constraints, thus preventing overly conservative solutions and ensuring robust system security. A significant innovation in our method is the use of historical data to form a sample average approximation that directly informs the MIP model, bypassing the need for distributional assumptions to enhance solution robustness. Additionally, we implement a model improvement strategy to reduce the computational burden, making our method more scalable for large-scale power systems. Our approach is validated against benchmark systems, i.e., IEEE 14-, 57- and 118-bus systems, demonstrating superior performance in terms of cost-efficiency and robustness, with lower computational demand compared to existing methods.

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来源期刊

International Journal of Machine Learning and Cybernetics COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE-

CiteScore

7.90

自引率

10.70%

发文量

225

期刊介绍： Cybernetics is concerned with describing complex interactions and interrelationships between systems which are omnipresent in our daily life. Machine Learning discovers fundamental functional relationships between variables and ensembles of variables in systems. The merging of the disciplines of Machine Learning and Cybernetics is aimed at the discovery of various forms of interaction between systems through diverse mechanisms of learning from data. The International Journal of Machine Learning and Cybernetics (IJMLC) focuses on the key research problems emerging at the junction of machine learning and cybernetics and serves as a broad forum for rapid dissemination of the latest advancements in the area. The emphasis of IJMLC is on the hybrid development of machine learning and cybernetics schemes inspired by different contributing disciplines such as engineering, mathematics, cognitive sciences, and applications. New ideas, design alternatives, implementations and case studies pertaining to all the aspects of machine learning and cybernetics fall within the scope of the IJMLC. Key research areas to be covered by the journal include: Machine Learning for modeling interactions between systems Pattern Recognition technology to support discovery of system-environment interaction Control of system-environment interactions Biochemical interaction in biological and biologically-inspired systems Learning for improvement of communication schemes between systems